Enabling Deep Demand Response With Supply-Following Loads

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Enabling Deep Demand Response With Supply-Following Loads

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Co-locate with energy storage Companion dispatchable energy sources Increase ... allows optimization against different criteria Fridge Deployment 18 cu. ft ... – PowerPoint PPT presentation

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Title: Enabling Deep Demand Response With Supply-Following Loads

1
Enabling Deep Demand ResponseWith
Supply-Following Loads

Jay Taneja (with Prabal Dutta and David Culler)
University of California, Berkeley

2
Multi-scale Energy Network
3
Sources and Loads
Dispatchable Sources
Non-Dispatchable Sources
Oblivious Loads
Aware Loads
4
California Energy Mix

Renewables Portfolio Standard (RPS)
36 of 50 states have set goals
Near-term goals range from 10 to 25
California RPS
2008 10
2010 20
2020 33

5
Wind Ramping
From a wind farm in Minnesota
6
How to Solve This?

Co-locate with energy storage
Companion dispatchable energy sources
Increase demand-side management
Supply-following Loads
Dispatch energy loads using deeply embedded
sensors and actuators

7
Dispatchable Loads

Thermostatically-Controlled Loads
Maintain the temperature between predetermined
constraints
Duty-cycled or variable-drive load often using
closed-loop feedback

Scheduled with Slide Loads
Schedule for completion at some point in the
future
Flexibility of load determined by user
requires change of expectation

8
Measuring Slack

Slack is the potential of an energy load to be
advanced or deferred
Measurement in energy (kWh, J, etc.)
Provides a metric for control decisions, allows
optimization against different criteria

9
Fridge Deployment

18 cu. ft. General Electric Refrigerator/Freezer
(at my house!)
Four Telos motes with Rel. Humidity,
Temperature, and Light Sensors
One ACme electricity meter for power
measurements
Devices on an ad-hoc, IPv6-compatible network
(6LoWPAN - blip)

10
Thermostatically-Controlled
11
Scheduled with Slide
12
Heating a House
13
Heater Guardband
14
Supply-Following Heater
Oblivious
Supply-Following Supercool
Supply-Following Wide Guardband
15
Heater Energy Comparison
16
A Population of Fridges
17
Future Directions

Reinforcement Learning controller
Modeling slack of large-scale Cory Hall loads
(e.g. chillers, air handlers, etc.)
Actuation on Cory Hall thermostats
Building the Intelligent Power Switch using an
appliance-level battery

18
Questions?